Towards a deeper understanding of sleep stages through their representation in the latent space of variational autoencoders

Luka Biedebach; Matias Rusanen; Benedikt Holm Thordarson; Erna Sif Arnardottir; Maria Oskarsdottir; Sami Nikkonen; Henri Korkalainen; Sami Myllymaa; Juha Toyras; Samu Kainulainen; Timo Leppanen; Anna Sigridur Islind

Conference proceeding

Towards a deeper understanding of sleep stages through their representation in the latent space of variational autoencoders

Luka Biedebach, Matias Rusanen, Benedikt Holm Thordarson, Erna Sif Arnardottir, Maria Oskarsdottir, Sami Nikkonen, Henri Korkalainen, Sami Myllymaa, Juha Toyras, Samu Kainulainen, …

PROCEEDINGS OF THE 56TH ANNUAL HAWAII INTERNATIONAL CONFERENCE ON SYSTEM SCIENCES, Vol.2023-January, pp.3111-3120

Hawaii International Conference on System Sciences

56th Annual Hawaii International Conference on System Sciences, HICSS 2023, 187535 (Maui, 03/01/2023–06/01/2023)

2023

Scopus ID: 2-s2.0-85152146774

Web of Science ID: WOS:001301786703020

Abstract

Learning systems

Neural networks

Sleep research

'current

Auto encoders

Encoding

Learn+

Learning process

Low-dimensional spaces

Sleep stage

Sleep stages classifications

Unsupervised machine learning

Electroencefalography

Electrophysiology

Artificial neural networks show great success in sleep stage classification, with an accuracy comparable to human scoring. While their ability to learn from labelled electroencephalography (EEG) signals is widely researched, the underlying learning processes remain unexplored. Variational autoencoders can capture the underlying meaning of data by encoding it into a low-dimensional space. Regularizing this space furthermore enables the generation of realistic representations of data from latent space samples. We aimed to show that this model is able to generate realistic sleep EEG. In addition, the generated sequences from different areas of the latent space are shown to have inherent meaning. The current results show the potential of variational autoencoders in understanding sleep EEG data from the perspective of unsupervised machine learning.

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Title: Towards a deeper understanding of sleep stages through their representation in the latent space of variational autoencoders
Creators: Luka Biedebach (Author)
Matias Rusanen (Author)
Benedikt Holm Thordarson (Author)
Erna Sif Arnardottir (Author)
Maria Oskarsdottir (Author)
Sami Nikkonen (Author)
Henri Korkalainen (Author)
Sami Myllymaa (Author)
Juha Toyras (Author)
Samu Kainulainen (Author)
Timo Leppanen (Author)
Anna Sigridur Islind (Author)
Publication Details: PROCEEDINGS OF THE 56TH ANNUAL HAWAII INTERNATIONAL CONFERENCE ON SYSTEM SCIENCES, Vol.2023-January, pp.3111-3120
Date published: 2023
Series: Hawaii International Conference on System Sciences
Publisher: IEEE Computer Society; Washington D.C
Conference: 56th Annual Hawaii International Conference on System Sciences, HICSS 2023, 187535 (Maui, 03/01/2023–06/01/2023)
Identifiers: 9780998133164; 9780998133164
Number of pages: 10
Grant note: 965417 / European Union; European Union (EU)
Language: English
Copyright: Tutti i diritti sono riservati ai legittimi detentori del copyright. L'Università Carlo Cattaneo - LIUC pubblica i dati relativi alle pubblicazioni di ricerca realizzate dai propri affiliati. La presenza nell'archivio ARL di testi completi non determina in alcun modo la libera riproduzione degli stessi, ma esclusivamente la possibilità della loro consultazione sul sito di ARL.
Academic Unit: Università Carlo Cattaneo - LIUC
Resource Type: Conference proceeding
Identifiers: 991001124476805126